CA2176029C - Close range dual penetration bullet for hunting - Google Patents

Abstract

Ammunition for small, medium and large caliber weapons. The ammunition comprises a sub-projectile (2) associated with a launcher which has the caliber of the weapon and is released when acted on by aerodynamic forces at the weapon outlet. These elements are held in a cartridge (C) which also comprises a case containing a primer and a propellant charge. The sub-projectile comprises a body (4) of hard material associated with an energetic cylindrical device (25), which comprises a front central nozzle-shaped element (34) communicating with at least two annular nozzle-shaped elements (6) channelling the air flow. The invention is suitable for hunting or training weapons.

Description

_ ~~ '~ 6U29 Hunting ball with double penetration and reduced range.
The present invention relates to ammunition for weapons of small, medium or large size, and more particularly new double penetration ball with reduced range, from a type with a sub-projectile associated with a launcher, powered by a propulsive system.
Arrow type ammunition is known in sports and military, for example, the FR-A patent

2,335,818 describes a hunting ammunition with a projec stabilized under-calibrated tail tiller, associated with a hoof launcher. The latter is made of a material capable of fragment at the exit of the barrel of the weapon, and the dispersion fragments then represents a risk to the security of the user.
Patent FR-A-2,555,728 describes an ammunition of the same type, that is to say comprising a sub-projectile stabilized by empen-associated with a detachable launcher which has the effect of guide and seal during the journey in the tube of the weapon. The sub-projectile has a tapered shape, and is made of a material of high density, giving it a high energy density during the impact. This characteristic However, the disadvantage is that only slight damage to the game, the sub-projectile indeed cross the soft flesh of the game without meeting hard part. In addition, the projectile can be driven to a significant distance if the target is missed, due to its good trajectory stability, and it can then constitute a danger to people nearby.
Patent FR-A-2,627,854 relates to a hunting ammunition having a projectile constituted by an internal element the front and side walls are covered by an element outer sleeve-shaped. The internal metallic element has a neutralizing shaped head, secured to a rod back on which can slide a hammer mass for increase the neutralizing effect of the projectile on impact.
However, the outer element remains attached to the inner element on the entire trajectory of the projectile; he can not be assimilated to a thrower such as the one used in arrow bullets and can not provide the same benefits.
In addition, projectiles of this type have the drawback to exhibit a strong aerodynamic drag and a sensitivity to the transverse wind. They also have a certain propensity for ricochets on obstacles such as tree trunks.
The subject of the present invention is a munition of the type arrow, comprising a sub-projectile associated with a launcher at caliber of the weapon detaching under the effect of aerodynamic forces namic-at the exit of the barrel of the weapon. The set up by the sub-projectile (or bare bullet) and the launcher stands included in a cartridge further comprising an amorphous sleeve and a propelling charge. This ammunition has characteristics characteristics that enable it to avoid the disadvantages of aforementioned projectiles, and may be used in particular in hunting weapons and training weapons.
military forces.
The present invention is directed to a small, medium or large caliber, with a sub-projectile associated with a launcher of caliber the weapon coming off under the effect of aerodynamic forces at the exit of tear, the assembly being included in a cartridge further comprising a primed sleeve and a propulsive charge, characterized in that the sub projectile includes:
a body made of hard material, associated with an energy element of revolution comprising a nozzle front central communicating with at least two annular channeling nozzles the flow of air, the energy element forming a front part of the projectile, the energy element consisting of a hollow outer element and of a solid interior element, connected to each other by blades.
Preferably, the inner member being of smaller diameter and disposed behind the outer element.

According to a preferred embodiment, the element outer energy forms with the conical head of the body of the sub-projectile, a central nozzle communicating with the annular nozzles, formed in the energy element of revolu-lution, around the conical head.
The energy element can be realized in accordance with the invention so that the outer diameter of its outer element is substantially the caliber of the weapon. In this embodiment, the launcher is placed on the sub-projectile, ~ behind the external energy element.
According to a variant, the external energy element can be also under-calibrated, but its outside diameter remains higher than the body of the sub-projectile. In this variant embodiment, the shape of the launcher is adapted to completely cover the sub-projectile, ie the body and the energy element of revolution.
The inside diameter of the outdoor energy element in the form of a nozzle may be greater, equal or less than outer diameter of the inner energy element.
The energy element of revolution can be separable from body on which it is mounted, but according to a variant, the body and the energy element can be realized in one only homogeneous piece, in the same material.
In addition, the energy element can be realized from to be fragmentable when impacting the target. This effect can be achieved by using a material having a appropriate shock resistance, and in this case the body of the sub-projectile and the energy element are made in two different and are assembled during manufacture. By example, we can predict that the energy element of revolution be made of a material of least resistance to impact that the body of the sub-projectile, made of hard material. I1 It is also possible to predict breakthroughs in the energy element, for example at the connection between the outer element and the inner element, and preferably at the base of the vanes separating the annular nozzles or in the thickness of the central nozzle. In this form of the body of the sub-projectile and the energy element that revolution can be made in one and the same room.
Preferably, on the other hand, it is advantageous according to the invention, that the front face of the energy element of revolution presents a chamfer inside. According to another advantageous embodiment, the surtace internal of the energy element of revolution has a frustoconical shape which the inside diameter of its front part is slightly greater than the inside diameter of its rear part.
Preferably, a complete bullet (projectile) according to the invention is consisting of two essential elements consisting of the bare bullet (sub-projectile), and the launcher.
The launcher can be made using the techniques known, and it can be in one single piece or in several elements joined longitudinally. he can too be divided into at least two separate monobloc elements trans-versalement. According to the invention, it may be advantageous that the thrower has a rear face with a cutting of form corresponding to the empenne of the sub-projectile.
A seal may be provided between the body of the ball (sub-projectile) and the launcher, and preferably a seal ring seal is set up on a plate of thrust located between the head and the body of the bullet, to ensure the tightness of the propellant gases after fire of the charge.
The seal between the launcher and the barrel of the weapon can be ensured, in accordance with the invention, by means of a lip ring formed on the periphery of the rear face of the launcher, or at least one launcher element, so that this annular lip is pressed against the wall of the tube by the pressure of the gases after firing the charge.
The ammunition according to the present invention has many advantages over known ammunition of the same application domain. More particularly, it allows.

4a - to generate wounds in the soft parts of the game by fragmentation of the energy element following a shard cone more or less open;
- rapid penetration of the boom, constituted by the body and the inner energy element, to attack the hard parts of the game skeleton and to create a wave of significant shock:
- a reduced range of the ball, the reduction of range being predetermined and possibly associated with a destabilizing said ball. This result can be obtained in known manner by an internal aerodynamic effect;
- fast separation of the launcher also based on "., ~~~~~, .. ~ ... a ..___: ~ ..... ~~., _., ...

WO 96108689 ', ~ ~ ..'. ~ PGT / FR95 / 01170 - that the monoblock launcher remains in the firing plan after the separation of the ball;
- a low propensity for ricochets of the ball;
an improved ballistic dispersion;
5 - to reduce the mass of lead involved;
- shooting in all smooth weapons of the type "full-choke ", weakly scratched and strongly striped;
- the use of the same ball for different cali-bres (for example calibers 12, 16, 20, etc.).
Tests carried out with bales made according to to the present invention in comparison with bullets known, have highlighted the excellent results obtained by the invention.
Indeed, when we compare the trajectory of a bullet without nozzle (range a) with that of a ball with braking aerodynamic only, bullet fired under the same conditions (range b), and with that of a ball according to the invention, with aerodynamic clogging braking and destabilization on the trajectory (range c) we see the relation c <b <a, that is, the scope is clearly limited in the case of the invention.
The advantage of braking and destabilizing associated with the reduced scope is particularly useful in the case of training ammunition, while the double penetration of the energy element and the arrow constitutes a significant advantage in the case of hunting ammunition. In in addition, the kinetic surface energies of these two elements are very high, according to the invention, as indicated below.
The features and advantages of the invention appear more clearly on reading the following description, with reference to annexed drawings relating to preferred forms realizations, which represent.
Figure 1 . a schematic section of a complete cartridge according to the present invention, comprising a ball complete, consisting of a naked ball and a thrower, and a primed socket and a propellant charge.

'~. ~: .. .i .y, ., i;:. "-WO 96/08689 ~ '~ ~ ~ n 2 ~ q ~~' PCT / FR95 / 01170 Figure 2 a longitudinal section of the bare bullet of the Figure 1.
Figure 3 a front view of a simple variant of the bare ball of Figure 2.
Figure 4 a cup of the thrower associated with the bare ball shown in Figure 1. ' Figures 5-8. variants of achievements in accordance with the present invention.
These exemplary embodiments all relate to huntings or small caliber, but it is clear that the invention can be adapted to training ammunition without depart from the scope of this description.
As shown in Figure 1, the cartridge (C) includes the bare ball (2), thrower (3), and primed bushing (D) containing a propellant charge, here constituted by a powder (P) of conventional type.
The bare ball (2), shown in more detail in Figure 2, essentially comprises two elements.
the body (4) made of hard material (for example brass) having a conical head (5), a core (7), a plate thrust (11), and a stabilizer (18) for stabilizing the projectile on its trajectory;
an energy element of revolution (25) constituted an inner member (10) and an outer member (26) interconnected by vanes (27), thereby forming nozzles rings (6) around the conical head (5), the element (10), smaller diameter, recessed and ~
behind the outer element (26).
The shape of the annular nozzles (6) delimited by the (27) appears more clearly in Figure 3, representing a bare bullet having an outer member (26) of cylindrical shape and four annular nozzles.
The conical head (5) of the body (4) of the bare ball (2) is 1 designed in accordance with the present invention to ensure several functions, and more particularly to favor the flow of air through the annular nozzles (6), to allow the ball to stick well on the targets encountered.

WO 96/08689 -. _. ~ .. ~ ~ ~ PCT / FR95 / 01170 trés, and penetrate the matter. with a neutralizing power Very important.
The core (7) is provided with hinges (8) co-operating with the rims circular nails (9) of the inner energy element (10).
The thrust plate (11) ensures a - the holding of the inner energy element (10) at level of the interface (12) during the propulsion phase of the naked ball (2), as well as during the penetration phase in target;
b - the impulse gas seal between the launcher (3) and the body (4) thanks to the seal (13) made of material deformable cooperating with the groove (14);
c - the guide of the launcher (3) by its outer part cylindrical (15);
d - the thrust of the central part of the bare ball (2) [body (4) + interior energy element (10)] thanks to the cooperation of the rear part of the launcher (3) and the face back (16) itself having a shoulder (17) in order to allow better guidance of the launcher (3).
The stabilizer (18) serves to stabilize the bare bullet (2) on its path. It is made either in the same material as the body (4), that is to say preferably brass, or in a technopolymer-type material.
The empenné is constituted in a classical way and dial.
a - fins (19) whose number and shape are related to the conditions of flight of the bare bullet (2), following a usual technique. In general, it is preferable the empenne has four fins. Each fin has a trailing edge chamfer (20) to allow the ball naked (2) to turn weakly on its trajectory. The front (21) fins (19) can be interlocked in corresponding grooves.
in the launcher (3) thus allowing a angular locking of the bare ball (2) with the thrower (3).
The outer diameter (a) of the fins (19) is preferably slightly less than the outer diameter (b) of the element inner energy (lo) which is itself equal to the diameter outside the thrust plate (11);

WO 96/08689 ~ ~ ~ ~ ~ t ~~~ ~ '~ ~ ~ ~ ~ ~ ~ PGT / FR95 / 01170 ' boy Wut b - a body of empenne (23) also serving as guidance to the launcher (3) at the interface (24).
The energy element (25) is made of a material dense, for example lead, but any other metallic material high density may be suitable, and for example a metal alloy of appropriate density or a mixed organic metal alloy.
The two elements (10) and (26) of the energy element (25) are interconnected by the blades (27) whose number depends on flight characteristics, mechanical strength of the complete ball (1) during the propulsion phase, than the behavior of the bare bullet (2) during penetration in the target. The number of blades is generally between 2 and 8 and is preferably equal to 4. These blades have, in their outer part, a recess (28) cooperating.
with the inner part (29) of the launcher (3), the latter being so guided in its front part.
The external energy element (26) has on its outer part of the circular parts (30) as well as throats (31). To avoid filling the tube with the weapon, it is preferable that the circular parts (30) have a diameter (c) less than or not greater than the outside diameter of the launcher

(3), that the number and width of the said staves be the as low as possible, and that the grooves (31) have a diameter (d) smaller than the exit diameter of a gun barrel "full choke".
The front face (32) of the outer element (26) has the smallest possible area. The latter is condi-the importance of the inner chamfer (33) which has as another function to favor on the one hand the penetration of air in the central nozzle (34) and on the other hand the fragmen-Open cone tapping at the beginning of naked ball penetration (2) in the target by bursting the element (26).
The rear face (35) of the outer element (26) is combined with the front (36) of the thrower (3) to ensure mechanical strength of the external energy element (26) during the propulsion phase of the complete ball (1). The part interior (37) of the outer element (26) delimits the nozzle ~ ~ ~ ~~ ta ~~~

central (34) of cylindro-conical shape cooperating with the annular nozzles (6) of a number equal to the number of vanes (27).
The inside diameter (e) of the rear part of the nozzle (34) is greater than or equal to the outside diameter (b) of the inner energy element (10) and the the thrust plate (11). Of course, this nozzle (34) may be of merely cylindrical shape, Constant inner diameter from front to back.
To improve the fragmentation of the energy element outer circumference (26), longitudinal different numbers and shapes, can be practiced in the thickness of the cylindrical wall of the element. .
The shape of the annular nozzles (6) has contours curvilinear. The precise dimensioning of the nozzles (34) and (6) is determined by the usual methods of the technique in according to the flight characteristics that we want to obtain, penetration characteristics in the target as well as the mechanical strength of the energy element (25) during the phase launching the complete ball.
The nozzles can be of any geometric form for example, square, triangular, round, oblong, or conical.
The inner energy element (10) has a diameter outside (b) less than or equal to the inside diameter (e) the rear portion of the central nozzle (34). I1 has circular grooves on its inside (9) cooperating with the adents (8) of the nucleus (7). Its front (38) comprises a conical portion (39) forming the inner portion annular nozzles (6) in continuity with the conical head (5) the body (4) of the bare ball (2). Its back side is with the front face of the thrust plate (11) at of the interface (12).
The body (4) associated with the inner energy element (10) composes the arrow (40) of the bare ball (2). The arrow (40) is directed all the way to the target by the external energy element (26).
The launcher (3), shown in Figure 4, is manufactured made of low density and high flexibility material 21,6029.
WO 96/08689 ~ ~ '~ ~ ~ PCT' / FR95 / 01170 '10 (for example a technopolymer such as a polyamide). The launcher (3) is integral and can slide freely until it comes into contact with the outer element (26), the recess dawn (27) and the thrust plate (11). It includes on its outer part of the adents (41) of small width allowing guiding the complete ball (1) in the barrel of the weapon. of the decompression grooves (42) ensure good Propulsive gases, sealing also largely ensured by the lip (43) by plating the latter against the wall of the barrel of the weapon under the effect of the pressure. This organization allows shooting in all "Full-Chokes" tubes without degradation of the ballistic dispersion of the bare bullet (2) and also increases the longevity of weapons.
The front face (36) of the launcher (3) cooperates with the face rear (35) of the external energy element (26) for essentially the mechanical strength of the element (26) during the propulsion phase of the complete ball (1).
The inner part of the launcher (3) comprises on its part before a recess (29) conjugating with the recess corresponding (28) blades (27) and thus allowing the front guide of the launcher (3). This launcher (3) has a bore (44) having an inside diameter (f) greater than that (b) of the inner energy element (10) (play of tenths of a millimeter), and a bore (45) co-operating with the outer part (15) of the thrust plate (11), which allows to partially ensure the rear guidance of the launcher (3).
In addition, the recess (46) cooperates with the rear face (16) and the shoulder (17) of the thrust plate (11) thus also partly to ensure the rear guidance of the launcher (3), and the mechanical strength of the assembly during the propulsion phase.
The bores (44) and (45) are connected by the conical portion that (62). The bore (47) cooperates with the pile body (23) and thus makes it possible to complete the rear guidance of the launcher (3).
Grooves (22) of a number equal to the number of fins (19) of the empene (18), ensure, in cooperation with the party before (21) fins (19), the angular locking of the bare ball (2) with the thrower (3), the diameter (g) of the bottom of ,, j i ~ ..
~ - WO 96108689 ~ PCT / FR95 / 01170 11,.
grooves being slightly larger than the outside diameter (a) fins (19).
The operation of the ammunition in accordance with this The invention is described below.
At the start of the stroke and during the increase in pressure, the The bushing is made by means of the external energy element (26). During the phase of propulsion of the complete ball (1), the bare ball (2) and the launcher (3) are intimately linked. Right out of the tube the weapon, the thrower (3) slides on the bare ball (2) thanks to the aerodynamic drag difference by friction on the ball naked (2) and on the launcher (3), and at the pressure of the air in the central nozzle (34) and in the annular nozzles (6) and exercising essentially on the step (29) of the launcher.
The zones of sliding bare ball (2) - launcher (3) -have different dimensions, the last point of contact to be realized in front of the center of gravity of the ball naked (2) and as close as possible to the latter. This provision partially compensates for small disturbances related to launcher separation (3) / bare bullet (2).
The launcher (3) monoblock thus released remains in the plane of firing until it falls to the ground observed at an average distance of 40 meters from the shooter. It thus confers all the security 25 firing at other fighters, for example.
On trajectory, the stabilization of the bare bullet (2) is provided by the empenne (18) of the arrow (40), the latter also fulfilling the role of empenn for the energy outer tick (26). .
The sizing of the central nozzle (34) and the tuyè
res annular (6) can be realized in order to create a clogging or aerodynamic unblocking. There is a clearing w dynamic when, for a given speed V1 there is circula air from the central nozzle (34) to the outside in passing through the annular nozzles (6) on the sole condition that this speed V1 is greater than the so-called "critical" speed Vc. There is aerodynamic capping at a speed V2 less than the speed V1. In this case, the air can no longer circulate W096 / 08689 ~ - ~ ~ ~ ~ ~ ~ ~~~ y- f '12 _.

. .
the nozzles. This aerodynamic fleet is characterized by a strong increase of the aerodynamic halftone up to a factor 2 thus leading to a shorter span of the bare ball (2). Moreover, this aerodynamic closure generates moving the center of applied aerodynamic forces on the bare ball (2) towards the center of gravity of said ball.
Decreasing this distance can lead to a destabilization the ball at a given distance. This pheno leads, associated with a strong aerodynamic drag allows to get very short spans.
The aggression mechanism takes place in two phases.
In a first phase, the external energy element (26) first hits the target by its front face (32) with the energy total amount of the bare ball (2).
At this moment, three phenomena appear chronologically gically.
a - a first neutralizing effect thanks to the kinetic energy surface area (1/2 m.V2) annular cross-section of the outer energy element (26) is very high thus to generate a significant shock wave with misplacement.
b - a second neutralizing effect by fragmentation of the outer energy element (26) following a cone open flakes.
c - the release of the arrow (40): This last, very under-calibrated with respect to the external energy element (26) is not disturbed by the fragmentation of said element.
In a second phase, the arrow (40) whose release has practically absorbed no energy, thus hits the target with the total energy of the bare ball (2). The target being less hard because of the work done by the energy outer tick (26) during the first phase, the arrow (40) can easily enter the target with its total energy.
Thanks in part to the inner energy element (10), the neutralizing power of disintegration, inhibition, ruptures hard parts is exceptional. It should be noted that at the moment of penetration into the target, the kinetic surface energy of the arrow (40) (1/2 m.V2) maximum cross-section of the body of the arrow) is exceptionally high.

2 ~ 6029-.
WO 96/08689 '~ PGT / FR95 / 01170 13 = -, This mechanism of aggression in two phases makes it possible to obtain very high surface kinetic energies of the element outside energy (26) and the arrow (40). The current In addition, the invention makes it very easy to control the value of surface kinetic energies to impose on the element outside energy (26) and arrow (40).
Several examples of ammunition according to the invention and performed by conventional manufacturing techniques, are described below.

Characteristics of a 12 gauge bullet.
- Total mass of the complete ball (1) Mt = 30.0 g - Mass of the launcher (3) M 4 5 L = ~ g - Total mass of the bare bale (2) Mb = 25.5 g - Mass of the energy element (25) Mw = 18.5 g - Mass of the bullet body (4) M ~ = 7.0 g - Vo = 500 m / S
- Energies of the bare ball (2) at the mouth of the tube.
Kinetic energy . E ~ = 3200 J
Surface kinetic energy of the element outside energy (26).
Ec /. S1 = 32 J / mmz Surface Kinetic Energy of the Spire (40) Ec / .S2 = 33 J / mm In this embodiment, we can observe values of Ec / .S practically identical.
Several technological variants of the bullet conform to the present invention have been manufactured, and are specified below.
after. Of course, various modifications can be made without departing from the scope of the present invention.

This example describes a launcher made in several joined elements.
The bare ball (2) can be fired with a launcher several elements with joined planes as shown on the Figure 5 I.
~ v Figure 5 depicts a complete ball with such launcher consisting of two elements (49). These cooperate with the bare ball (2) using adents and circular grooves laires (50).
As shown in Figure 6, under the effect of the components aerodynamic elements, the elements (49) of the launcher stand out from the naked ball (2) which, released, reaches the target. The elements (49) fall at an average distance of 30 meters with a gap maximum of 7 meters from the firing plan.

As shown in FIG. 7, the following launcher (3) the invention is mounted on the bare ball (2), the energy element of which outer geometry (26) has a widely the outer diameter of the launcher (3) and an integral diameter substantially equal to the diameter of the boom body (40) (diameter c <outside diameter of the launcher, and diameter e -diameter b) In this configuration, the launcher (3) has a centering (48) conjugated with the outer edge of the parts circular (30) of the outer energy element (26). The launcher (3) is thus increased by the height of the element (26). Crimping the socket is done on the front (36) of the launcher (3).
To prevent the naked ball (2) from freely leaving the launcher (3) at the start of the stroke under the pressure p of dessertis wise, a lock (51) is placed in front of one of the circu (30) of the element (26) and is wedged between the bushing and the circular groove (31) of the element (26). This lock being free longitudinally, so it is released outside right out of the tube. He can leave his home and release the bare ball (2).

The present invention can also be applied to shooting.
bullets in heavily striped tubes, as the ball shows shown in Figure 8.

_ '~ ~ ~ ~ .0 ~ ~'. , pGT / FR95 / 01170 WO 96/08689.
The bare ball (2) conforms to this. invention is stabilized by empennage. Only a very slight rotation on trajectory is allowed thanks to the chamfers (20) practiced on the trailing edge of the fins (19). To keep this mode 5 of stabilization, it is necessary to avoid the rotational speed given by a strongly striped tube.
Figure 8 depicts an example of a corresponding embodiment under these conditions. In this embodiment, the launcher (3) is divided into two elements in a cross section.
The front member (52) and the rear member (53).
The front element (52) is monobloc and revolution. I1 do not has more circular parts and decompressing throats external relations. Its outside diameter (54) is slightly less than the inside diameter of the striped tube (55). A chamfer 15 (56) is provided at the front of this element for put a good introduction of the cartridge. The element (52) can slide freely on the bare ball (2).
The rear element (53) is also monobloc and revo lution. Its outside diameter (h) is very slightly higher the strand bottom diameter (i) of the tube (55). His inner diameter (k) is greater (by a few tenths of millimeters) to the diameter (j) of the thrust plate (II). I1 also has on its outer part a groove of crimping (57) in which the collar of the socket (60) metallic interlocks by deformation.
A chamfer (58) is also practiced to allow a good grip of scratches of said element (53). A grain (59) to low coefficient of friction is interposed between the two elements (52) and (53). A latch (61) cooperating with the plate (11), performs the same function as that of the lock (51) described in Figure 7. I1 stops the element (53) in translation but he allows complete freedom in rotation.
The operation of this device is as follows.
As soon as pressure builds up, the dessert is realized, the ball (2) and the element (52) can not advance because of that they are locked in translation by the lock (51).
The element (53) thus takes the striping of the tube (55) and turns to the speed allowed by this scratch. In his movement, he ~ s. s, ~ ~. ~
WO 96108689 r '~' ~ '''~ N "PCTIFR95I01170"' drives the bare ball (2) and the element (52) in slight rotation by friction only. At the outlet of the tube, the element (53) breaks by centrifugation leaving the possibility to the element (52) sliding the bare ball (2).

Claims (13)

1. Ammunition for small, medium or large caliber weapons, comprising a sub-projectile (2) associated with a launcher (3) of the caliber of the detached weapon under the effect of the aerodynamic forces at the exit of the weapon, the assembly being included in a cartridge (C) further comprising a casing primed and a propellant charge, characterized in that the sub-projectile (2) understand:
- a body (4) made of hard material, associated with - an energy element of revolution (25) comprising a nozzle central front (34) communicating with at least two annular nozzles (6) channeling the flow of air, the energetic element (25) forming a part front of the sub-projectile (2), the energy element consisting of a element hollow exterior (26) and a solid interior element (10), interconnected by blades (27). 2. Ammunition according to claim 1, characterized in that the element interior (10) is of smaller diameter and is behind the element outside (26). 3. Ammunition according to claim 1 or 2, characterized in that the outer energy element has a front portion forming with a head conical of the body of the sub-projectile, a central nozzle communicating with the annular nozzles, formed in the energy element of revolution, around of the conical head. 4. Ammunition according to any one of claims 1 to 3, characterized in that the outer member (26) has a diameter greater than or equal to the outer diameter (b) of the inner element (10). 5. Ammunition according to any one of claims 1 to 3, characterized in that the outer member (26) has a diameter less than or equal to the outer diameter (b) of the inner element (10). 6. Ammunition according to any one of claims 1 to 5, characterized in that the revolving energy element (25) has a face before having an interior chamfer. 7. Ammunition according to claim 1, characterized in that the element energy of revolution (25) is made of a material of lesser resistance to impact than the body (4) of the sub-projectile (2). 8. Ammunition according to claim 1, characterized in that the element energy of revolution (25) comprises fracture initiators formed on the vanes (27) or in the thickness of the central nozzle. 9. Ammunition according to any one of claims 1 to 8, characterized in that the launcher (3) is produced in a single one-piece element or more elements adjoining longitudinally. 10. Ammunition according to any one of claims 1 to 8, characterized in that the launcher is made of at least two elements monoblocs separated transversely. 11. Ammunition according to claim 1, characterized in that the launcher comprises a rear face having a shaped cutout corresponding to the stabilizer (18) of the sub-projectile (2). ] 12. Ammunition according to claim 9 or 10, characterized in that the launcher (3) comprises an annular lip (43) formed on the periphery of the face rear of at least one of the launcher elements. 13. Ammunition according to claim 1, characterized in that the body (4) of the sub-projectile has a head (5) and a tail (18), and a joint sealing ring (13) is placed on a thrust plate (11) located between the head (5) and the stabilizer (18) of the body (4) of the sub-projectile.